CN102902408B - A kind of method controlling electronic device touchscreen work and a kind of electronic equipment - Google Patents

Abstract

This application discloses a kind of method controlling electronic device touchscreen work and realize the electronic equipment of the method, the method controlling electronic device touchscreen work includes: step is determined in touch area: when touch screen accepts touch operation, electronic equipment is according to touch operation touch track on the touchscreen, determining all basic virtual region of touch track process, touch screen is divided by electronic equipment and is formed by basic virtual region in advance；Touch number of times statistic procedure: electronic equipment adds up and adds up the touch number of times that each basic virtual region is corresponding；Operating area position adjustment step: the position of at least one operating area on touch screen, according to statistical result, is adjusted by electronic equipment.The touch number of times of each operating area on touch screen can be counted by the application, adjust each operating area position accordingly, the touch number of times as far as possible making each region on touch screen is uniform, it is prevented that whole touch screen from being damaged is too much caused because touching number of times in some region, extends touch screen and uses the time.

Description

A kind of method controlling electronic device touchscreen work and a kind of electronic equipment

Technical field

The application relates to electronic device field, particularly relates to a kind of method controlling electronic device touchscreen work and a kind of electronic equipment.

Background technology

Along with socioeconomic development, touch screen is widely used various electronic product, for instance mobile phone, computer and panel computer etc., and user just can complete various operation by touching touch screen.

But contacting between user with touch screen is all physical contact, use after certain time, touch screen can damage because of the friction of physical contact generation unavoidably, the position at operating area that particularly on those touch screens, usage frequency is significantly high or operation button place, it is easier to the touch number of times because bearing too many and damaged, whole touch screen even electronic equipment all can not be worked, therefore shorten the service life of touch screen and electronic equipment, individual and society can be caused the wasting of resources.

For the problem that the touch screen of electronic equipment is easily damaged, current solution mainly improves the material of touch screen, for instance increase the hardness of material, abrasion resistance etc..

Summary of the invention

The technical problem underlying that the application to solve is to provide a kind of method controlling electronic device touchscreen work and a kind of electronic equipment, it is possible to reduces the damage to touch screen, extends the use time of touch screen.

The application provides a kind of method controlling electronic device touchscreen work on the one hand, comprises the following steps:

Step is determined in touch area: when touch screen accepts touch operation, electronic equipment is according to touch operation touch track on the touchscreen, determining all basic virtual region of touch track process, touch screen is divided by electronic equipment and is formed by basic virtual region in advance；

Touch number of times statistic procedure: electronic equipment adds up and adds up the touch number of times that each basic virtual region is corresponding；

Operating area position adjustment step: the position of at least one operating area on touch screen, according to statistical result, is adjusted by electronic equipment.

In a kind of embodiment, operating area includes palace lattice menu, operation button in application program and/or operation input frame.

In a kind of embodiment, in operating area position adjustment step, electronic equipment is according to statistical result, and the concrete mode that the position of operating area is adjusted is:

Receive the touch number of times query statement of input；

Statistical result is presented by user interface；

Receive the operating area position adjustment instruction of input, and according to operating area position adjustment instruction, the position of operating area is adjusted to the frequent region of non-tactile from touching frequent region.

In a kind of embodiment, touch in number of times statistic procedure, after electronic equipment adds up and adds up the touch number of times that each basic virtual region is corresponding, also calculate the touch number of times estimated value that at least one operating area on the touch screen formed by multiple basic virtual regions is corresponding;

In operating area position adjustment step, electronic equipment first determines whether that whether touch number of times estimated value that operating area is corresponding is more than pre-set threshold value, is, adjusts to the frequent region of non-tactile from touching frequent region by the position of operating area.

In a kind of embodiment, it is judged that whether number of times estimated value that what operating area was corresponding touch more than the concrete mode of pre-set threshold value is: utilize and set software in electronic equipment and regularly judge.

In a kind of embodiment, the computational methods touching number of times estimated value are: the touch number of times that all basic virtual region that occupied by described operating area is corresponding is added, divided by the number of all basic virtual region occupied.

In a kind of embodiment, touch in number of times statistic procedure, electronic equipment adds up after adding up the touch number of times that each basic virtual region is corresponding, always according to touching number of times, adding up the touch number of times grade that each basic virtual region is corresponding, the basic virtual region touching number of times grade identical forms section on the touchscreen；

By the position of operating area from touching the concrete mode that frequent region adjusts to the frequent region of non-tactile it is: operating area is moved to touching the section that number of times grade is low from touching the high section of number of times grade on the touchscreen.

In a kind of embodiment, touch area is determined in step, it is determined that all basic virtual region of touch track process method particularly includes:

Laterally basic virtual region determines step: taking the upper left point of touch screen is that initial point sets up coordinate system, if the abscissa of the left side bearing of a certain basic virtual region is less than minimum abscissa more than touch track of the maximum abscissa of touch track and the abscissa of right side bearing, then this basic virtual region is the laterally basic virtual region of touch track process；

Longitudinally basic virtual region determines step: taking the upper left point of touch screen is that initial point sets up coordinate system, if the vertical coordinate of the upper sideline of a certain basic virtual region is less than the vertical coordinate of the maximum ordinate of touch track and the lower sideline minimum vertical coordinate more than touch track, then this basic virtual region is the longitudinally basic virtual region of touch track process；

The basic virtual region of touch track process determines step: select the laterally basic virtual region of touch track process and the basic virtual region that longitudinally basic virtual region overlaps, as the basic virtual region of touch track process.

The application provides a kind of electronic equipment realizing controlling electronic device touchscreen method of work on the other hand, including:

Unit is determined in touch area: for when touch screen accepts touch operation, according to touch operation touch track on the touchscreen, determining all basic virtual region of touch track process, touch screen is divided by electronic equipment and is formed by basic virtual region in advance.

Touch number of times statistic unit: add up, for cumulative, the touch number of times that each basic virtual region is corresponding.

Operating area position adjustment unit: for according to statistical result, the position of at least one operating area on touch screen being adjusted.

In a kind of embodiment, touch area determines that unit also includes:

Laterally basic virtual region determines module: being used for taking the upper left point of touch screen is that initial point sets up coordinate system, if the abscissa of the left side bearing of a certain basic virtual region is less than minimum abscissa more than touch track of the maximum abscissa of touch track and the abscissa of right side bearing, then take the laterally basic virtual region that this basic virtual region is touch track process.

Longitudinally basic virtual region determines module: being used for taking the upper left point of touch screen is that initial point sets up coordinate system, if the vertical coordinate of the upper sideline of a certain basic virtual region is less than the vertical coordinate of the maximum ordinate of touch track and the lower sideline minimum vertical coordinate more than touch track, then take the longitudinally basic virtual region that this basic virtual region is touch track process.

The basic virtual region of touch track process determines module: the basic virtual region that the laterally basic virtual region and longitudinal basic virtual region for selecting touch track process overlaps, as the basic virtual region of touch track process.

In a kind of embodiment, operating area position adjustment unit includes:

First command reception module: for receiving the touch number of times query statement of input.

Present module: for presenting statistical result by user interface.

Second command reception module: for receiving the operating area position adjustment instruction of input, adjusts the position of operating area to the frequent region of non-tactile from touching frequent region.

In a kind of embodiment, touch number of times statistic unit also to include touching number of times estimated value computing module: for, after the touch number of times that each basic virtual region of cumulative statistics is corresponding, also calculating the touch number of times estimated value that the operating area formed by multiple basic virtual regions is corresponding.

Operating area position adjustment unit also includes judge module: for judging that whether touch number of times estimated value that described operating area is corresponding is more than pre-set threshold value, is, adjusted to the frequent region of non-tactile from touching frequent region the position of operating area.

The application provides the benefit that: the method for the control electronic device touchscreen work that the application provides and electronic equipment can count the touch number of times data of each operating area on touch screen, and the position according to the operating area correspondence on the touchscreen touching each application program of number of times data point reuse, make the touch number of times that on touch screen, each region is subject to uniform as far as possible, prevent some region from too much causing whole touch screen from being damaged because touching number of times, extend the use time of touch screen.

Accompanying drawing explanation

Fig. 1 is the method flow diagram controlling electronic device touchscreen work of a kind of embodiment of the application；

Fig. 2 is resolution is the basic virtual area partition schematic diagram of handset touch panel of 240*400；

Fig. 3 is resolution be 240*400 handset touch panel service condition display schematic diagram；

Fig. 4 is the virtual fundamental region defining method flow chart of user's touch track process of a kind of embodiment of the application；

Fig. 5 is the electronic devices structure block diagram of a kind of embodiment of the application.

Detailed description of the invention

The present invention is described in further detail in conjunction with accompanying drawing below by detailed description of the invention.In the application in embodiment, the method controlling electronic device touchscreen work is applied on the electronic equipment with touch screen, and these electronic equipments can be mobile phone, panel computer etc..In use procedure, electronic equipment can count the touch number of times of each basic virtual region on touch screen, then can based on these data, each operating area position on the touchscreen is adjusted by mode either automatically or manually, make the touch number of times that on touch screen, each region is subject to uniform as far as possible, prevent some region from too much causing whole touch screen from being damaged because touching number of times, extend the use time of touch screen.

Embodiment one:

Refer to Fig. 1, in the present embodiment, the method controlling electronic device touchscreen work comprises the following steps:

S100: step is determined in touch area: when touch screen accepts touch operation, electronic equipment is according to touch operation touch track on the touchscreen, determining all basic virtual region of touch track process, touch screen is divided by electronic equipment and is formed by basic virtual region in advance.

Basic virtual region is the resolution according to electronic device touchscreen, carries out dividing, it is generally the case that each basic virtual region is all rectangle, and equal in magnitude in units of pixel.In a particular embodiment, refer to Fig. 2, the handset touch panel being 240*400 for resolution, touch screen is divided into laterally 24, longitudinally 40, amounts to 480 basic virtual regions, each basic virtual region is a square, and the pixel of the length of side is 10.Now set these 480 basic virtual regions and name respectively A1-1, A1-2, A1-3.........A24-40, wherein, A numeral below first represents the horizontal sequence valve of this basic virtual region, A numeral below second represents longitudinal sequence valve of this virtual fundamental region, for better setting forth the principle of the application, the multiple basic virtual region divided out is numbered from 1 to 480, therein digital 1, 2, 3, 26, 27, 28.... until 478, 479, 480 numberings representing corresponding region, the blank region representation not filling in numeral omits, some regions are also had not draw in the middle of them.

When user touches touch screen; touch screen accepts user's touch operation on the touchscreen; this touch operation is probably one click; it is also likely to be and once slides; touch track can be formed in a word on the touchscreen; and this touch track can through multiple basic virtual regions, the touch track data of the coordinate form that electronic equipment is formed on the touchscreen according to this touch track, determine all basic virtual region of this touch track process.

S101: touch number of times statistic procedure: electronic equipment adds up and adds up the touch number of times that each basic virtual region is corresponding.

When electronic equipment determine touch track through all basic virtual region after, the touch number of times that these basic virtual regions are corresponding is carried out cumulative statistics by electronic equipment, often touch once, counting adds one, such as the basic virtual region of called after A1-3, when all basic virtual region of certain touch track process comprises this basic virtual region, it touches cumulative frequency and adds one.Additionally, some time, user wish statistics operating area in, often the area of an operating area occupies multiple basic virtual region, such as operating area can be the operation button in palace lattice menu or a certain application program or operation input frame etc., and operation input frame can be handwriting input frame.When the touch number of times that the operating area that statistics is formed by multiple basic virtual regions is corresponding, the touch number of times that all basic virtual region that can be occupied by this operating area is corresponding is added, number divided by all basic virtual region that this operating area occupies, just obtaining, by this mode averaged, the touch number of times estimated value that this operating area is corresponding, this value also can reflect the frequency that this operating area is touched well.

nullBy the counting statistics of a period of time，Electronic equipment just can count the touch number of times that on touch screen, all basic virtual region of touch track process is corresponding，Or the touch number of times estimated value that the operating area that formed by multiple basic virtual regions is corresponding，The storage of these statistical datas in the electronic device and the number of times being touched along with touch screen dynamically increase，Thus being formed on the touchscreen by touching the frequent region of touch that the of a relatively high basic virtual region of number of times forms，And by touching the frequent district of non-tactile that the of a relatively high basic virtual region of number of times forms，Specifically how the frequent region of touch and the frequent region of non-tactile are made a distinction and can adopt various ways flexibly，Such as set the boundary value touching number of times，Touch number of times and belong to the frequent region of touch more than the basic virtual region of this boundary value，Touch number of times and belong to the frequent region of non-tactile less than the basic virtual region of this boundary value，Certainly other differentiation mode can also be adopted.In a kind of embodiment, electronic equipment adds up after adding up the touch number of times that each basic virtual region is corresponding, always according to touching number of times, add up the touch number of times grade that each basic virtual region is corresponding, the basic virtual region touching number of times grade identical forms section on the touchscreen, such as touching number of times is zero to one ten thousand time, is defined as grade A；Touching number of times is 1 ten thousand to ten ten thousand time, is defined as grade B；Touching number of times is 10 ten thousand to one million times, is defined as grade C, also can set the frequent region of composition touch, section that the basic virtual region of grade C is formed, the composition frequent region of non-tactile, section that the basic virtual region of grade B and grade A is formed.

S102: operating area position adjustment step: the position of at least one operating area on touch screen, according to statistical result, is adjusted by electronic equipment.

Electronic equipment counts the touch number of times that on touch screen, all basic virtual region of touch track process is corresponding, or after the touch number of times estimated value that the operating area that formed by multiple basic virtual regions is corresponding, according to statistical result, the position of at least one operating area can be manually adjusted or automatically adjusts.

Wherein, the one manually adjusted concretely comprises the following steps: electronic equipment receives the touch number of times query statement of input by the menu on touch screen or mobile phone key；Statistical result by MMI user interface rendering step S101, this statistical result can have various ways, such as can demonstrate the touch number of times of its correspondence at each basic virtual region, or show a touch number of times grade that basic virtual region is corresponding also by the mode such as numeral, letter, character, color；Finally, electronic equipment receives the operating area position adjustment instruction of input again through touch screen, and is adjusted to the frequent region of non-tactile from touching frequent region the position of operating area according to operating area position adjustment instruction.

In a particular embodiment, refer in Fig. 3, figure drawn grid and represent above-mentioned basic virtual region, in screen, black part also has above-mentioned basic virtual region, for sake of clarity, only chooses centre and is labeled with the subregion of letter.By kinds of characters, the present embodiment shows that the touch number of times grade that each basic virtual region is corresponding also can be called frequency grade, such as, character A, B, C in each drawn grid represent the frequency grade that this region is used, wherein, touching number of times is zero to one ten thousand time, is defined as grade A；Touching number of times is 1 ten thousand to ten ten thousand time, is defined as grade B；Touching number of times is 10 ten thousand to one million times, is defined as grade C；The definition of this grade is known to the user dawn in advance.When user wishes the service condition checking each region of touch screen, just can activate query screen service condition menu 31, perform menu option inquiry service condition 32, electronic equipment will by the service condition of touch screen by character A, B, C is shown on screen, thus allowing user clearly know the service condition in each region, the section usage frequency that basic virtual region identical for screen upper left side grade A is formed is relatively low, the section usage frequency that basic virtual region identical for grade B below screen is formed takes second place, the section usage frequency that basic virtual region identical for screen upper right grade C is formed is the highest.User just can adopt and manually adjust instruction to electronic equipment input operation regional location, such as directly on screen, drag a certain operating area, by its position from the section that the basic virtual region that the grade C region that usage frequency is the highest is moved to grade A or grade B is formed.Such as in the lattice menu of palace, in the section that the basic virtual region that position icon in grade C region can be moved to grade A or grade B by user is formed.

It addition, the position of at least one operating area on touch screen according to statistical result, can be automatically adjusted by electronic equipment.Specifically, can set an application software in electronic equipment makes it do suitable mating with the region on touch screen, this software arranges predetermined threshold value, when this application software judges that the touch number of times estimated value that certain operating area is corresponding reaches predetermined threshold value, the position of this operating area just can be adjusted to the frequent region of non-tactile by electronic equipment from touching frequent region, such as predetermined threshold value can be 100,000 times, 1,000,000 inferior, this application software can judge at any time, certainly also regularly can judge according to the predetermined cycle.When the position of a certain operating area is adjusted region frequent to non-tactile from the frequent region of touch, such as, in the section that the basic virtual region that can be moved by position icon in the section that the basic virtual region of grade C is formed to grade A or grade B is formed, certainly, the operating area that electronic equipment also can set in the section formed by basic virtual region the highest grade directly moves to the section that elementary basic virtual region is formed.

The touch number of times that on electronic device touchscreen, regional is subject to just can be made as far as possible uniformly, it is prevented that whole touch screen from being damaged is too much caused because touching number of times in some region, extends the use time of touch screen by said method.

Embodiment two:

Refer to Fig. 4 and Fig. 2, in the present embodiment, touch area determines that step specifically includes following sub-step:

S400: laterally basic virtual region determines step: taking the upper left point of touch screen is initial point, is to the right abscissa direction, is vertical coordinate direction downwards, sets up coordinate system；Take the maximum abscissa of touch track and minimum abscissa, from left to right take the abscissa in the sideline, basic virtual region left and right that first row arranges to last string that is the 24th.

S401: the maximum abscissa of the abscissa in sideline, basic virtual region left and right and touch track and minimum abscissa are contrasted, if the abscissa of the left side bearing of a certain basic virtual region is less than minimum abscissa more than touch track of the maximum abscissa of touch track and the abscissa of right side bearing, then take the laterally basic virtual region that this basic virtual region is touch track process.

S402: longitudinally basic virtual region determines step: taking the upper left point of touch screen is initial point, it it is to the right abscissa direction, it is vertical coordinate direction downwards, set up coordinate system, take the maximum ordinate of touch track and minimum vertical coordinate, take from top to bottom the first row to last column i.e. basic virtual region of the 40th row the vertical coordinate of lower sideline.

S403: the vertical coordinate of lower sideline on basic virtual region is contrasted with the maximum ordinate of touch track and minimum vertical coordinate, if the vertical coordinate of the upper sideline of a certain basic virtual region is less than the vertical coordinate of the maximum ordinate of touch track and the lower sideline minimum vertical coordinate more than touch track, then take the longitudinally basic virtual region that this basic virtual region is touch track process.

S404: the basic virtual region of touch track process determines step: select meet the laterally basic virtual region of step S401 and meet the basic virtual region that the longitudinally basic virtual region of step S403 overlaps, as the basic virtual region of touch track process, i.e. all virtual fundamental region 22 of touch track 21 process in the present embodiment.

Embodiment three:

With embodiment two the difference is that, the present embodiment be first carried out step S402-S403 obtain touch track through longitudinally basic virtual region after, perform step S400-S401 again and obtain the laterally basic virtual region of touch track process, finally perform step S404 and obtain the virtual fundamental region of touch track process.

Embodiment four:

As described in Figure 5, the step of the method for above-described embodiment can be carried out instruction related hardware by program and complete, by with the mating of hardware, this example forms a kind of electronic equipment with touch screen, and this electronic equipment has the function touching number of times data and each operating area position of adjustment of each operating area on statistics touch screen.This electronic equipment can be with the mobile phone of touch screen, computer and panel computer etc..This electronic equipment includes:

Unit 50 is determined in touch area: for when touch screen accepts touch operation, according to touch operation touch track on the touchscreen, determining all basic virtual region of touch track process, touch screen is divided by electronic equipment and is formed by basic virtual region in advance.

Touch number of times statistic unit 51: add up, for cumulative, the touch number of times that each basic virtual region is corresponding.This unit mainly includes master control, enumerator, memorizer etc., and enumerator for carrying out touching the cumulative of number of times under the control of master control, and memorizer for storing the touch number of times that each basic virtual region is corresponding under the control of master control.

Operating area position adjustment unit 52: for according to statistical result, the position of at least one operating area on touch screen being adjusted.

In a kind of embodiment, touch area determines that unit 50 also includes:

Laterally basic virtual region determines module 501: being used for taking the upper left point of touch screen is that initial point sets up coordinate system, if the abscissa of the left side bearing of a certain basic virtual region is less than minimum abscissa more than touch track of the maximum abscissa of touch track and the abscissa of right side bearing, then take the laterally basic virtual region that this basic virtual region is touch track process.

Longitudinally basic virtual region determines module 502: being used for taking the upper left point of touch screen is that initial point sets up coordinate system, if the vertical coordinate of the upper sideline of a certain basic virtual region is less than the vertical coordinate of the maximum ordinate of touch track and the lower sideline minimum vertical coordinate more than touch track, then take the longitudinally basic virtual region that this basic virtual region is touch track process.

The basic virtual region of touch track process determines module 503: the basic virtual region that the laterally basic virtual region and longitudinal basic virtual region for selecting touch track process overlaps, as the basic virtual region of touch track process.

In a kind of embodiment, touch number of times statistic unit 51 and also include:

Touch number of times estimated value computing module 511: for, after the touch number of times that each basic virtual region of cumulative statistics is corresponding, also calculating the touch number of times estimated value that the operating area formed by multiple basic virtual regions is corresponding;

In the mode of the operating area on a kind of touch screen of adjustment manually, operating area position adjustment unit 52 also includes:

First command reception module 521: for receiving the touch number of times query statement of input.

Present module 522: for, under the control of master control, extracting statistical result from the memorizer touched number of times statistic unit 51, and by user interface, user is presented in statistical result.

Second command reception module 523: for receiving the operating area position adjustment instruction of input, and according to operating area position adjustment instruction, adjusts the position of operating area to the frequent region of non-tactile from touching frequent region.

In the mode of the operating area on the another kind of touch screen of adjustment manually, operating area position adjustment unit also includes:

Judge module: for judging that whether touch number of times estimated value that operating area is corresponding is more than pre-set threshold value, is, the position of operating area is adjusted to the frequent region of non-tactile from touching frequent region.

Above content is in conjunction with specific embodiment further description made for the present invention, it is impossible to assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, it is also possible to make some simple deduction or replace.

Claims (9)

1. the method controlling electronic device touchscreen work, it is characterised in that comprise the following steps:

Step is determined in touch area: when touch screen accepts touch operation, electronic equipment is according to described touch operation touch track on described touch screen, determining all basic virtual region of described touch track process, described touch screen is divided by described electronic equipment and is formed by described basic virtual region in advance；

Touch number of times statistic procedure: electronic equipment adds up and adds up the touch number of times that each described basic virtual region is corresponding；

Operating area position adjustment step: the position of at least one operating area on described touch screen, according to statistical result, is adjusted by electronic equipment；

The described position at least one operating area on described touch screen is adjusted, and adjusts to the frequent region of non-tactile from touching frequent region including by the position of described operating area.

2. the method for claim 1, it is characterised in that in described operating area position adjustment step, electronic equipment is according to statistical result, and the concrete mode that the position of described operating area is adjusted is:

Receive the touch number of times query statement of input；

Described statistical result is presented by user interface；

Receive the operating area position adjustment instruction of input, and according to described operating area position adjustment instruction, the position of described operating area is adjusted to the frequent region of non-tactile from touching frequent region.

3. the method for claim 1, it is characterized in that, in described touch number of times statistic procedure, after electronic equipment adds up and adds up the touch number of times that each described basic virtual region is corresponding, also calculate the touch number of times estimated value that at least one operating area on the described touch screen formed by multiple described basic virtual regions is corresponding；

In described operating area position adjustment step, electronic equipment first determines whether that whether touch number of times estimated value that described operating area is corresponding is more than pre-set threshold value, is, adjusts to the frequent region of non-tactile from touching frequent region by the position of described operating area；

The computational methods of described touch number of times estimated value are: the touch number of times that all basic virtual region that occupied by described operating area is corresponding is added, divided by the number of all basic virtual region occupied.

4. method as claimed in claim 2 or claim 3, it is characterized in that, in described touch number of times statistic procedure, electronic equipment adds up after adding up the touch number of times that each described basic virtual region is corresponding, always according to described touch number of times, adding up the touch number of times grade that each described basic virtual region is corresponding, the basic virtual region that described touch number of times grade is identical forms section on described touch screen；

By the position of described operating area from touching the concrete mode that frequent region adjusts to the frequent region of non-tactile it is: described operating area is moved to touching the section that number of times grade is low from touching the high section of number of times grade on described touch screen.

5. method as described in claim 1, it is characterised in that described touch area is determined in step, it is determined that all basic virtual region of described touch track process method particularly includes:

Laterally basic virtual region determines step: taking the upper left point of described touch screen is that initial point sets up coordinate system, if the abscissa of the left side bearing of a certain basic virtual region is less than minimum abscissa more than described touch track of the maximum abscissa of described touch track and the abscissa of right side bearing, then this basic virtual region is the laterally basic virtual region of described touch track process；

Longitudinally basic virtual region determines step: taking the upper left point of described touch screen is that initial point sets up coordinate system, if the vertical coordinate of the upper sideline of a certain basic virtual region is less than the vertical coordinate of the maximum ordinate of described touch track and the lower sideline minimum vertical coordinate more than described touch track, then this basic virtual region is the longitudinally basic virtual region of described touch track process；

The basic virtual region of touch track process determines step: select the laterally basic virtual region of described touch track process and longitudinal basic virtual region that virtual region overlaps substantially, as the basic virtual region of described touch track process.

6. the electronic equipment realizing controlling electronic device touchscreen method of work, it is characterised in that including:

Unit is determined in touch area: for when touch screen accepts touch operation, according to described touch operation touch track on described touch screen, determining all basic virtual region of described touch track process, described touch screen is divided by described electronic equipment and is formed by described basic virtual region in advance；

Touch number of times statistic unit: add up, for cumulative, the touch number of times that each described basic virtual region is corresponding；

Operating area position adjustment unit: for according to statistical result, the position of at least one operating area on described touch screen being adjusted；

The described position at least one operating area on described touch screen is adjusted, and adjusts to the frequent region of non-tactile from touching frequent region including by the position of described operating area.

7. electronic equipment as claimed in claim 6, it is characterised in that described touch area determines that unit also includes:

Laterally basic virtual region determines module: being used for taking the upper left point of described touch screen is that initial point sets up coordinate system, if the abscissa of the left side bearing of a certain basic virtual region is less than minimum abscissa more than described touch track of the maximum abscissa of described touch track and the abscissa of right side bearing, then take the laterally basic virtual region that this basic virtual region is described touch track process；

Longitudinally basic virtual region determines module: being used for taking the upper left point of described touch screen is that initial point sets up coordinate system, if the vertical coordinate of the upper sideline of a certain basic virtual region is less than the vertical coordinate of the maximum ordinate of described touch track and the lower sideline minimum vertical coordinate more than described touch track, then take the longitudinally basic virtual region that this basic virtual region is described touch track process；

The basic virtual region of touch track process determines module: the basic virtual region that the laterally basic virtual region and longitudinal basic virtual region for selecting described touch track process overlaps, as the basic virtual region of described touch track process.

8. electronic equipment as claimed in claim 7, it is characterised in that described operating area position adjustment unit includes:

First command reception module: for receiving the touch number of times query statement of input；

Present module: for presenting described statistical result by user interface；

Second command reception module: for receiving the operating area position adjustment instruction of input, and according to described operating area position adjustment instruction, adjusts the position of described operating area to the frequent region of non-tactile from touching frequent region.

9. the electronic equipment as according to any one of claim 6 to 8, it is characterized in that, described touch number of times statistic unit also includes touching number of times estimated value computing module: for, after the touch number of times that each described basic virtual region of cumulative statistics is corresponding, also calculating the touch number of times estimated value that the operating area formed by multiple described basic virtual regions is corresponding；

Described operating area position adjustment unit also includes judge module: for judging that whether touch number of times estimated value that described operating area is corresponding is more than pre-set threshold value, is, adjusted to the frequent region of non-tactile from touching frequent region the position of described operating area；

The computational methods of described touch number of times estimated value are: the touch number of times that all basic virtual region that occupied by described operating area is corresponding is added, divided by the number of all basic virtual region occupied.